/* * Copyright (c) 2019 TAOS Data, Inc. * * This program is free software: you can use, redistribute, and/or modify * it under the terms of the GNU Affero General Public License, version 3 * or later ("AGPL"), as published by the Free Software Foundation. * * This program is distributed in the hope that it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. * * You should have received a copy of the GNU Affero General Public License * along with this program. If not, see . */ #ifndef TDENGINE_TSCLIENT_H #define TDENGINE_TSCLIENT_H #ifdef __cplusplus extern "C" { #endif #include "os.h" #include "taos.h" #include "taosmsg.h" #include "tglobalcfg.h" #include "tlog.h" #include "tscCache.h" #include "tscSQLParser.h" #include "taosdef.h" #include "tsqlfunction.h" #include "tutil.h" #include "trpc.h" #define TSC_GET_RESPTR_BASE(res, _queryinfo, col, ord) \ (res->data + tscFieldInfoGetOffset(_queryinfo, col) * res->numOfRows) // forward declaration struct SSqlInfo; typedef struct SSqlGroupbyExpr { int16_t tableIndex; int16_t numOfGroupCols; SColIndexEx columnInfo[TSDB_MAX_TAGS]; // group by columns information int16_t orderIndex; // order by column index int16_t orderType; // order by type: asc/desc } SSqlGroupbyExpr; typedef struct SMeterMetaInfo { SMeterMeta * pMeterMeta; // metermeta SMetricMeta *pMetricMeta; // metricmeta /* * 1. keep the vnode index during the multi-vnode super table projection query * 2. keep the vnode index for multi-vnode insertion */ int32_t vnodeIndex; char name[TSDB_TABLE_ID_LEN + 1]; // table(super table) name int16_t numOfTags; // total required tags in query, including groupby tags int16_t tagColumnIndex[TSDB_MAX_TAGS]; // clause + tag projection } SMeterMetaInfo; /* the structure for sql function in select clause */ typedef struct SSqlExpr { char aliasName[TSDB_COL_NAME_LEN + 1]; // as aliasName SColIndexEx colInfo; int64_t uid; // refactor use the pointer int16_t functionId; // function id in aAgg array int16_t resType; // return value type int16_t resBytes; // length of return value int16_t interResBytes; // inter result buffer size int16_t numOfParams; // argument value of each function tVariant param[3]; // parameters are not more than 3 } SSqlExpr; typedef struct SFieldInfo { int16_t numOfOutputCols; // number of column in result int16_t numOfAlloc; // allocated size TAOS_FIELD *pFields; short * pOffset; /* * define if this column is belong to the queried result, it may be add by parser to faciliate * the query process * * NOTE: these hidden columns always locate at the end of the output columns */ bool * pVisibleCols; int32_t numOfHiddenCols; // the number of column not belongs to the queried result columns } SFieldInfo; typedef struct SSqlExprInfo { int16_t numOfAlloc; int16_t numOfExprs; SSqlExpr *pExprs; } SSqlExprInfo; typedef struct SColumnIndex { int16_t tableIndex; int16_t columnIndex; } SColumnIndex; typedef struct SColumnBase { SColumnIndex colIndex; int32_t numOfFilters; SColumnFilterInfo *filterInfo; } SColumnBase; typedef struct SColumnBaseInfo { int16_t numOfAlloc; int16_t numOfCols; SColumnBase *pColList; } SColumnBaseInfo; struct SLocalReducer; typedef struct SCond { uint64_t uid; char * cond; } SCond; typedef struct SJoinNode { char meterId[TSDB_TABLE_ID_LEN]; uint64_t uid; int16_t tagCol; } SJoinNode; typedef struct SJoinInfo { bool hasJoin; SJoinNode left; SJoinNode right; } SJoinInfo; typedef struct STagCond { // relation between tbname list and query condition, including : TK_AND or TK_OR int16_t relType; // tbname query condition, only support tbname query condition on one table SCond tbnameCond; // join condition, only support two tables join currently SJoinInfo joinInfo; // for different table, the query condition must be seperated SCond cond[TSDB_MAX_JOIN_TABLE_NUM]; int16_t numOfTagCond; } STagCond; typedef struct SParamInfo { int32_t idx; char type; uint8_t timePrec; short bytes; uint32_t offset; } SParamInfo; typedef struct STableDataBlocks { char meterId[TSDB_TABLE_ID_LEN]; int8_t tsSource; // where does the UNIX timestamp come from, server or client bool ordered; // if current rows are ordered or not int64_t vgid; // virtual group id int64_t prevTS; // previous timestamp, recorded to decide if the records array is ts ascending int32_t numOfMeters; // number of tables in current submit block int32_t rowSize; // row size for current table uint32_t nAllocSize; uint32_t headerSize; // header for metadata (submit metadata) uint32_t size; /* * the metermeta for current table, the metermeta will be used during submit stage, keep a ref * to avoid it to be removed from cache */ SMeterMeta *pMeterMeta; union { char *filename; char *pData; }; // for parameter ('?') binding uint32_t numOfAllocedParams; uint32_t numOfParams; SParamInfo *params; } STableDataBlocks; typedef struct SDataBlockList { int32_t idx; uint32_t nSize; uint32_t nAlloc; char * userParam; /* user assigned parameters for async query */ void * udfp; /* user defined function pointer, used in async model */ STableDataBlocks **pData; } SDataBlockList; typedef struct SQueryInfo { int16_t command; // the command may be different for each subclause, so keep it seperately. uint16_t type; // query/insert/import type char intervalTimeUnit; int64_t etime, stime; int64_t nAggTimeInterval; // aggregation time interval int64_t nSlidingTime; // sliding window in mseconds SSqlGroupbyExpr groupbyExpr; // group by tags info SColumnBaseInfo colList; SFieldInfo fieldsInfo; SSqlExprInfo exprsInfo; SLimitVal limit; SLimitVal slimit; STagCond tagCond; SOrderVal order; int16_t interpoType; // interpolate type int16_t numOfTables; SMeterMetaInfo **pMeterInfo; struct STSBuf * tsBuf; int64_t * defaultVal; // default value for interpolation char * msg; // pointer to the pCmd->payload to keep error message temporarily int64_t clauseLimit; // limit for current sub clause // offset value in the original sql expression, NOT sent to virtual node, only applied at client side int64_t prjOffset; } SQueryInfo; // data source from sql string or from file enum { DATA_FROM_SQL_STRING = 1, DATA_FROM_DATA_FILE = 2, }; typedef struct { int command; uint8_t msgType; union { bool existsCheck; // check if the table exists or not bool inStream; // denote if current sql is executed in stream or not bool createOnDemand; // if the table is missing, on-the-fly create it. during getmeterMeta int8_t dataSourceType; // load data from file or not }; union { int32_t count; int32_t numOfTablesInSubmit; }; int32_t clauseIndex; // index of multiple subclause query int8_t isParseFinish; short numOfCols; uint32_t allocSize; char * payload; int payloadLen; SQueryInfo **pQueryInfo; int32_t numOfClause; // submit data blocks branched according to vnode SDataBlockList *pDataBlocks; // for parameter ('?') binding and batch processing int32_t batchSize; int32_t numOfParams; } SSqlCmd; typedef struct SResRec { int numOfRows; int numOfTotal; } SResRec; struct STSBuf; typedef struct { uint8_t code; int64_t numOfRows; // num of results in current retrieved int64_t numOfTotal; // num of total results int64_t numOfTotalInCurrentClause; // num of total result in current subclause char * pRsp; int rspType; int rspLen; uint64_t qhandle; int64_t uid; int64_t useconds; int64_t offset; // offset value from vnode during projection query of stable int row; int16_t numOfnchar; int16_t precision; int32_t numOfGroups; SResRec * pGroupRec; char * data; short * bytes; void ** tsrow; char ** buffer; // Buffer used to put multibytes encoded using unicode (wchar_t) struct SLocalReducer *pLocalReducer; SColumnIndex * pColumnIndex; } SSqlRes; typedef struct _tsc_obj { void * signature; void * pTimer; char mgmtIp[TSDB_USER_LEN]; uint16_t mgmtPort; char user[TSDB_USER_LEN]; char pass[TSDB_KEY_LEN]; char acctId[TSDB_DB_NAME_LEN]; char db[TSDB_TABLE_ID_LEN]; char sversion[TSDB_VERSION_LEN]; char writeAuth : 1; char superAuth : 1; struct _sql_obj *pSql; struct _sql_obj *pHb; struct _sql_obj *sqlList; struct _sstream *streamList; pthread_mutex_t mutex; } STscObj; typedef struct _sql_obj { void * signature; STscObj *pTscObj; void (*fp)(); void (*fetchFp)(); void * param; uint32_t ip; short vnode; int64_t stime; uint32_t queryId; void * pStream; void * pSubscription; char * sqlstr; char retry; char maxRetry; SRpcIpSet *ipList; char freed : 4; char listed : 4; tsem_t rspSem; tsem_t emptyRspSem; SSqlCmd cmd; SSqlRes res; uint8_t numOfSubs; char * asyncTblPos; void * pTableHashList; struct _sql_obj **pSubs; struct _sql_obj * prev, *next; } SSqlObj; typedef struct _sstream { SSqlObj *pSql; uint32_t streamId; char listed; int64_t num; // number of computing count /* * keep the number of current result in computing, * the value will be set to 0 before set timer for next computing */ int64_t numOfRes; int64_t useconds; // total elapsed time int64_t ctime; // stream created time int64_t stime; // stream next executed time int64_t etime; // stream end query time, when time is larger then etime, the stream will be closed int64_t interval; int64_t slidingTime; int16_t precision; void * pTimer; void (*fp)(); void *param; void (*callback)(void *); // Callback function when stream is stopped from client level struct _sstream *prev, *next; } SSqlStream; // tscSql API int tsParseSql(SSqlObj *pSql, bool multiVnodeInsertion); void tscInitMsgs(); extern int (*tscBuildMsg[TSDB_SQL_MAX])(SSqlObj *pSql, SSqlInfo *pInfo); void tscProcessMsgFromServer(char type, void *pCont, int contLen, void *ahandle, int32_t code); int tscProcessSql(SSqlObj *pSql); void tscAsyncInsertMultiVnodesProxy(void *param, TAOS_RES *tres, int numOfRows); int tscRenewMeterMeta(SSqlObj *pSql, char *meterId); void tscQueueAsyncRes(SSqlObj *pSql); void tscQueueAsyncError(void(*fp), void *param); int tscProcessLocalCmd(SSqlObj *pSql); int tscCfgDynamicOptions(char *msg); int taos_retrieve(TAOS_RES *res); /* * transfer function for metric query in stream computing, the function need to be change * before send query message to vnode */ int32_t tscTansformSQLFunctionForSTableQuery(SQueryInfo *pQueryInfo); void tscRestoreSQLFunctionForMetricQuery(SQueryInfo *pQueryInfo); void tscClearSqlMetaInfoForce(SSqlCmd *pCmd); int32_t tscCreateResPointerInfo(SSqlRes *pRes, SQueryInfo *pQueryInfo); void tscDestroyResPointerInfo(SSqlRes *pRes); void tscFreeSqlCmdData(SSqlCmd *pCmd); void tscFreeResData(SSqlObj* pSql); /** * free query result of the sql object * @param pObj */ void tscFreeSqlResult(SSqlObj* pSql); /** * only free part of resources allocated during query. * Note: this function is multi-thread safe. * @param pObj */ void tscFreeSqlObjPartial(SSqlObj *pObj); /** * free sql object, release allocated resource * @param pObj Free metric/meta information, dynamically allocated payload, and * response buffer, object itself */ void tscFreeSqlObj(SSqlObj *pObj); void tscCloseTscObj(STscObj *pObj); void tscProcessMultiVnodesInsert(SSqlObj *pSql); void tscProcessMultiVnodesInsertFromFile(SSqlObj *pSql); void tscKillMetricQuery(SSqlObj *pSql); void tscInitResObjForLocalQuery(SSqlObj *pObj, int32_t numOfRes, int32_t rowLen); bool tscIsUpdateQuery(STscObj *pObj); bool tscHasReachLimitation(SQueryInfo *pQueryInfo, SSqlRes *pRes); char *tscGetErrorMsgPayload(SSqlCmd *pCmd); int32_t tscInvalidSQLErrMsg(char *msg, const char *additionalInfo, const char *sql); // transfer SSqlInfo to SqlCmd struct int32_t tscToSQLCmd(SSqlObj *pSql, struct SSqlInfo *pInfo); void tscQueueAsyncFreeResult(SSqlObj *pSql); extern void * pVnodeConn; extern void * pTscMgmtConn; extern void * tscCacheHandle; extern uint8_t globalCode; extern int slaveIndex; extern void * tscTmr; extern void * tscConnCache; extern void * tscQhandle; extern int tscKeepConn[]; extern int tsInsertHeadSize; extern int tscNumOfThreads; extern SRpcIpSet tscMgmtIpList; typedef void (*__async_cb_func_t)(void *param, TAOS_RES *tres, int numOfRows); #ifdef __cplusplus } #endif #endif